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Physicochemical properties of Ti-based MXenes obtained from SHS synthesized MAX phases and their application for energy storage
Nano World Summit: Current and Future Perspectives
June 06-07, 2018 | Philadelphia, USA
Sergii A Sergiienko
National University of Science and Technology MISiS, Russia
Posters & Accepted Abstracts: J Nanomed Nanotechnol
Abstract:
MXenes attract attention as electrodes for energy storage applications e.g. for supercapacitors. The problem is that the methods of MXenes preparation described in the literature are often multi-stage and complicated. So, the purpose of our work was the development of more simple and technologically acceptable method of MXenes preparation. In the literature, the synthesis of MAX phases (precursors for MXenes synthesis) has been realized by different methods. We used one stage self-propagating hightemperature synthesis (SHS) that seems most suitable due to simplicity, short reaction time, cost-effective and little demand on external energy. Commercially available Ti, Al and carbon black powders were used. Several phases (mainly Ti3AlC2, Ti2AlC, TiC) were among the products after SHS. Obtained products are crushed in a roll crusher and then automatic agate mortar. For Al etching from the MAX phase a dilute solution of HF was used. Then delamination of MXenes in N,N-dimethylformamide and isopropanol mixture with sonication were lasted for three days. The content of unreacted MAX phase particles in MXene powder can be reduced by using hydrocyclone assembly and alcohol medium instead of water. Suspension stability of MAX phase particles decreases rapidly while suspension of MXene particles is fairly stable. Also, alcohol medium can protect Ti3C2Tx Mxene from oxidation. Since both layered Ti3C2Tx and Ti2CTx obtained can be used as electrodes for supercapacitors, SHS method is suitable for Tix+1AlCx phases preparation. In 1 M solution of Na2SO4 obtained electrodes demonstrated gravimetric capacitance up to 220 Fgâ??1 at charge-discharge rates 2 mVsâ??1. sergeenko_sergei@ukr.net